Filters

Density

0 g/cm³ - 8 g/cm³

Print properties

Printing temperature

0 ºC - 400 ºC

Print bed temperature

0 ºC - 200 ºC

Mechanical properties

Impact strength

0 KJ/m² - 580 KJ/m²

Elongation at break

0 % - 13200 %

Tensile strength

0 MPa - 2980 MPa

Tensile modulus

0 MPa - 16000 MPa

Flexural strength

0 MPa - 2080 MPa

Flexural modulus

0 MPa - 29000 MPa

Surface hardness (scale)

0 - 9

Thermal properties

Softening temperature (ºC)

0 ºC - 310 ºC

Highlighted features

Filaments

High quality filaments for modelling, decoration, engineering, advanced and specialised uses (high speed, sintering, casting, ESD applications, friction resistance, conductivity) and much more.

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What is filament?

3D printing filaments are the essential materials used in Fused Deposition Modeling (FDM) 3D printers to create three-dimensional objects layer by layer. These filaments are typically thermoplastic polymers, available in various forms such as coils or spools, and come in a wide range of colors and diameters. As the filament passes through the heated nozzle of the 3D printer, it melts and is extruded onto the build platform, where it solidifies to form the desired shape. This process enables the creation of prototypes, functional parts, and intricate models with precise dimensions and fine details.

Materials

A wide variety of materials are available for 3D printing filaments, each offering unique properties suitable for different applications. Common materials include PLA, known for its biodegradability and ease of use, ABS, valued for its strength and durability, and PETG, valued for its chemical resistance and transparency. Additionally, specialized filaments such as TPU for flexible parts, PA for high-strength applications, and PC for heat resistance further expand the capabilities of FDM technology. Highly demanding industrial applications often require advanced materials such as PEEK, PEKK, or PEI for thermal and chemical resistance, flammability, UV resistance, friction resistance, ESD protection, and more. There are also filaments available with additional properties such as sinterability, casting ability, scent, 4D properties, etc. Other variations include filaments infused with wood, stone, or metal particles for unique aesthetics, color-changing filaments, support or soluble filaments for complex prints, and bio-based or sustainable filaments for environmentally friendly applications.

Considerations

When choosing a filament for a specific 3D printing project, several factors must be considered. Firstly, the mechanical and physical properties of the filament, such as strength, flexibility, and heat resistance, must match the requirements of the intended application. Additionally, factors such as printability, layer adhesion, and warping tendencies should be evaluated to ensure compatibility with the printer, successful printing, and optimal part quality. Other considerations include filament diameter compatibility with the printer nozzle size, environmental impact and material sustainability, and cost-effectiveness for large-scale production. By carefully evaluating these factors, users can select the most suitable filament for their 3D printing needs, achieving desired results with efficiency and reliability.